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Original Article

Development of an Endoscopic Navigation System Based on Digital Image Processing

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Pages 134-143 | Received 23 Sep 1997, Accepted 17 Sep 1998, Published online: 06 Jan 2010

References

  • Barnett G H, Kormos D W, Steiner C P, Weisenberger J. Use of a frameless, armless stereotactic wand for brain tumor localization with two-dimensional and three-dimensional neuroimaging. Neurosurgery 1993; 33: 674–678
  • Bauer B L, Hellwig D. Minimally invasive en-doscopic neurosurgery—A survey. Acta Neurochir 1994; 61(Suppl)1–12
  • Bricault I, Ferrettio G, Cinquin P. Computer-assisted bronchoscopy: Aims and research perspectives. J Image Guided Surg 1995; 1: 217–225
  • Cinquin P, Bainville E. Computer assisted medical interventions. IEEE Eng Med Biol., 1995
  • Finlay P. Neurorobot—A fully active system for assisting in neurosurgery. Ind Robot 1993; 20(2)28–29
  • Gunkel A R, Freysinger W, Thumfart W F, Truppe M J (1995) Application of the ARTMA image guided navigation system to endonasal sinus surgery. In. Proceedings of the Computer Assisted Radiology Conference (CAR '95). June, 21–241995, H U Lemke, K Inamura, C C Jaffe, M W Vannier. Springer, Berlin, 1147–1151
  • Harders A G, Hardenack M, Schmieder K, Scholz M, Seeger W. Mikrochirurgische Planung und Durchführung bei Großhirngliomen und erste Erfahr-ungen mit dem Mehr-Koordinaten-Manipulator MKM. In. Modeme Verfahren zur Optimierung der Behandlung von Hirntumoren, D Moskopp. Shaker (Berichte aus der Medizin), AachenGermany 1995
  • Horstmann G A, Reinhardt H F. Micro-stereometry, a frameless computerized navigating system for open microsurgery. Comput Med Imaging Graph 1994; 18: 229–233
  • Jacobs L K, Shayani V, Sackier J M. Determination of the learning curve of the AESOP robot. Surg Endosc 1997; 11: 54–55
  • Jain A K. Fundamentals of Digital Image Processing. Prentice-Hall, Englewood Cliffs, NJ 1989; 404–406
  • Kay C L, Evangelou H A. A review of the technical and clinical aspects of virtual endoscopy. Endos-copy 1996; 28: 768–775
  • Konen W, Scholz M, Tombrock S, Tölg S, Brauck-mann M, Adams L. An image based navigation support system for neuroendoscopic surgery. In. Symposium Bildverarbeitung 1997, R Alders. Technical Akademie Esslingen., Esslin-genGermany 1997
  • Koos W T, Roessler K, Matula C, Czech T, Schindler E (1997) Combination of intraoperative computed tomography (CCT) and image-guided neurosurgery. In. Proceedings of the 11th International Congress of Neurological Surgery. 1985. Monduzzi Editore, Italy, 1585–1590
  • Longuet-Higgins H C. A computer algorithm for reconstructing a scene from two projections. Nature 1981; 293: 133–135
  • Ohira T, Kawase T, Ohtani M. Significance of navigation in endoscopic operations for deep-seated brain tumors with a frameless navigator and an endoscopic ultrasound. In. Abstract Book: Neuroendoscopy from the Satellite Symposium of the 10th European Congress of Neurosurgery EANS, May 4–6, 1995. 1995
  • Scholz M, Deli M, Wildförster U, Wentz K, Reckna-gel A, Preuschoft H, Harders A. MRI-guided endoscopy in the brain: A feasability study. Minim Invasive Neurosurg 1996; 39: 33–37
  • Scholz M, Koch R, Hentsch A, Tschelishvilli I, Konen W, Hardenack M, Fricke B, von Düring M, Heuser L, Harders A G. Endoskopische Neuronavigation. Eine präklinische Studie mit dem EasyGuide Neuro system. Endosk Heute 1997; 3: 299–305
  • Seeger W. Anatomical and Technical Principles. I. Microsurgery of the Brain. Springer-Verlag, New York 1979; 48–53
  • Spetzger U, Laborde G, Gilsbach J M. Frame-less neuronavigation in modem neurosurgery. Minim Invasive Neurosurg 1995; 38: 163–166
  • Taylor R H, Funda J, Eldridge B, Larose D, Gomory S, Gruben K, Talamini M, Kavoussi L, Anderson J. A telerobotic assistant for laparoscopic surgery. In. Computer-Integrated Surgery: Technology and Clinical Applications, R H Taylor, S Lavallée, G C Burdea, R Mösges. MIT Press, Cambridge, MA 1996; 581–592
  • Tsai R Y. A versatile camera calibration technique for high-accuracy 3D machine vision metrology using off-the-shelf TV cameras and lenses. IEEE J Robot Automation 1987; 3: 323–344

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